/*
 *
 *    Copyright (c) 2022 Project CHIP Authors
 *
 *    Licensed under the Apache License, Version 2.0 (the "License");
 *    you may not use this file except in compliance with the License.
 *    You may obtain a copy of the License at
 *
 *        http://www.apache.org/licenses/LICENSE-2.0
 *
 *    Unless required by applicable law or agreed to in writing, software
 *    distributed under the License is distributed on an "AS IS" BASIS,
 *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *    See the License for the specific language governing permissions and
 *    limitations under the License.
 */

// THIS FILE IS GENERATED BY ZAP
// This file is generated from clusters-shared-Structs.ipp.zapt

#include <clusters/shared/Structs.h>

#include <app/data-model/Decode.h>
#include <app/data-model/StructDecodeIterator.h>
#include <app/data-model/WrappedStructEncoder.h>

namespace chip
{
namespace app
{
	namespace Clusters
	{
		// Structs shared across multiple clusters.
		namespace detail
		{
			namespace Structs
			{

				namespace ModeTagStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kMfgCode), mfgCode);
						encoder.Encode(to_underlying(Fields::kValue), value);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kMfgCode)) {
								err = DataModel::Decode(reader, mfgCode);
							} else if (__context_tag == to_underlying(Fields::kValue)) {
								err = DataModel::Decode(reader, value);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace ModeTagStruct

				namespace ModeOptionStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kLabel), label);
						encoder.Encode(to_underlying(Fields::kMode), mode);
						encoder.Encode(to_underlying(Fields::kModeTags), modeTags);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kLabel)) {
								err = DataModel::Decode(reader, label);
							} else if (__context_tag == to_underlying(Fields::kMode)) {
								err = DataModel::Decode(reader, mode);
							} else if (__context_tag == to_underlying(Fields::kModeTags)) {
								err = DataModel::Decode(reader, modeTags);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace ModeOptionStruct

				namespace MeasurementAccuracyRangeStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kRangeMin), rangeMin);
						encoder.Encode(to_underlying(Fields::kRangeMax), rangeMax);
						encoder.Encode(to_underlying(Fields::kPercentMax), percentMax);
						encoder.Encode(to_underlying(Fields::kPercentMin), percentMin);
						encoder.Encode(to_underlying(Fields::kPercentTypical), percentTypical);
						encoder.Encode(to_underlying(Fields::kFixedMax), fixedMax);
						encoder.Encode(to_underlying(Fields::kFixedMin), fixedMin);
						encoder.Encode(to_underlying(Fields::kFixedTypical), fixedTypical);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kRangeMin)) {
								err = DataModel::Decode(reader, rangeMin);
							} else if (__context_tag == to_underlying(Fields::kRangeMax)) {
								err = DataModel::Decode(reader, rangeMax);
							} else if (__context_tag ==
								   to_underlying(Fields::kPercentMax)) {
								err = DataModel::Decode(reader, percentMax);
							} else if (__context_tag ==
								   to_underlying(Fields::kPercentMin)) {
								err = DataModel::Decode(reader, percentMin);
							} else if (__context_tag ==
								   to_underlying(Fields::kPercentTypical)) {
								err = DataModel::Decode(reader, percentTypical);
							} else if (__context_tag == to_underlying(Fields::kFixedMax)) {
								err = DataModel::Decode(reader, fixedMax);
							} else if (__context_tag == to_underlying(Fields::kFixedMin)) {
								err = DataModel::Decode(reader, fixedMin);
							} else if (__context_tag ==
								   to_underlying(Fields::kFixedTypical)) {
								err = DataModel::Decode(reader, fixedTypical);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace MeasurementAccuracyRangeStruct

				namespace MeasurementAccuracyStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kMeasurementType),
							       measurementType);
						encoder.Encode(to_underlying(Fields::kMeasured), measured);
						encoder.Encode(to_underlying(Fields::kMinMeasuredValue),
							       minMeasuredValue);
						encoder.Encode(to_underlying(Fields::kMaxMeasuredValue),
							       maxMeasuredValue);
						encoder.Encode(to_underlying(Fields::kAccuracyRanges), accuracyRanges);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kMeasurementType)) {
								err = DataModel::Decode(reader, measurementType);
							} else if (__context_tag == to_underlying(Fields::kMeasured)) {
								err = DataModel::Decode(reader, measured);
							} else if (__context_tag ==
								   to_underlying(Fields::kMinMeasuredValue)) {
								err = DataModel::Decode(reader, minMeasuredValue);
							} else if (__context_tag ==
								   to_underlying(Fields::kMaxMeasuredValue)) {
								err = DataModel::Decode(reader, maxMeasuredValue);
							} else if (__context_tag ==
								   to_underlying(Fields::kAccuracyRanges)) {
								err = DataModel::Decode(reader, accuracyRanges);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace MeasurementAccuracyStruct

				namespace ErrorStateStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kErrorStateID), errorStateID);
						encoder.Encode(to_underlying(Fields::kErrorStateLabel),
							       errorStateLabel);
						encoder.Encode(to_underlying(Fields::kErrorStateDetails),
							       errorStateDetails);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kErrorStateID)) {
								err = DataModel::Decode(reader, errorStateID);
							} else if (__context_tag ==
								   to_underlying(Fields::kErrorStateLabel)) {
								err = DataModel::Decode(reader, errorStateLabel);
							} else if (__context_tag ==
								   to_underlying(Fields::kErrorStateDetails)) {
								err = DataModel::Decode(reader, errorStateDetails);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace ErrorStateStruct

				namespace LabelStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kLabel), label);
						encoder.Encode(to_underlying(Fields::kValue), value);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kLabel)) {
								err = DataModel::Decode(reader, label);
							} else if (__context_tag == to_underlying(Fields::kValue)) {
								err = DataModel::Decode(reader, value);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace LabelStruct

				namespace OperationalStateStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kOperationalStateID),
							       operationalStateID);
						encoder.Encode(to_underlying(Fields::kOperationalStateLabel),
							       operationalStateLabel);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag ==
							    to_underlying(Fields::kOperationalStateID)) {
								err = DataModel::Decode(reader, operationalStateID);
							} else if (__context_tag ==
								   to_underlying(Fields::kOperationalStateLabel)) {
								err = DataModel::Decode(reader, operationalStateLabel);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace OperationalStateStruct
			} // namespace Structs
		} // namespace detail

		namespace Globals
		{
			// Global structs
			namespace Structs
			{

				namespace CurrencyStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kCurrency), currency);
						encoder.Encode(to_underlying(Fields::kDecimalPoints), decimalPoints);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kCurrency)) {
								err = DataModel::Decode(reader, currency);
							} else if (__context_tag ==
								   to_underlying(Fields::kDecimalPoints)) {
								err = DataModel::Decode(reader, decimalPoints);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace CurrencyStruct

				namespace PriceStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kAmount), amount);
						encoder.Encode(to_underlying(Fields::kCurrency), currency);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kAmount)) {
								err = DataModel::Decode(reader, amount);
							} else if (__context_tag == to_underlying(Fields::kCurrency)) {
								err = DataModel::Decode(reader, currency);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace PriceStruct

				namespace MeasurementAccuracyRangeStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kRangeMin), rangeMin);
						encoder.Encode(to_underlying(Fields::kRangeMax), rangeMax);
						encoder.Encode(to_underlying(Fields::kPercentMax), percentMax);
						encoder.Encode(to_underlying(Fields::kPercentMin), percentMin);
						encoder.Encode(to_underlying(Fields::kPercentTypical), percentTypical);
						encoder.Encode(to_underlying(Fields::kFixedMax), fixedMax);
						encoder.Encode(to_underlying(Fields::kFixedMin), fixedMin);
						encoder.Encode(to_underlying(Fields::kFixedTypical), fixedTypical);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kRangeMin)) {
								err = DataModel::Decode(reader, rangeMin);
							} else if (__context_tag == to_underlying(Fields::kRangeMax)) {
								err = DataModel::Decode(reader, rangeMax);
							} else if (__context_tag ==
								   to_underlying(Fields::kPercentMax)) {
								err = DataModel::Decode(reader, percentMax);
							} else if (__context_tag ==
								   to_underlying(Fields::kPercentMin)) {
								err = DataModel::Decode(reader, percentMin);
							} else if (__context_tag ==
								   to_underlying(Fields::kPercentTypical)) {
								err = DataModel::Decode(reader, percentTypical);
							} else if (__context_tag == to_underlying(Fields::kFixedMax)) {
								err = DataModel::Decode(reader, fixedMax);
							} else if (__context_tag == to_underlying(Fields::kFixedMin)) {
								err = DataModel::Decode(reader, fixedMin);
							} else if (__context_tag ==
								   to_underlying(Fields::kFixedTypical)) {
								err = DataModel::Decode(reader, fixedTypical);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace MeasurementAccuracyRangeStruct

				namespace MeasurementAccuracyStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kMeasurementType),
							       measurementType);
						encoder.Encode(to_underlying(Fields::kMeasured), measured);
						encoder.Encode(to_underlying(Fields::kMinMeasuredValue),
							       minMeasuredValue);
						encoder.Encode(to_underlying(Fields::kMaxMeasuredValue),
							       maxMeasuredValue);
						encoder.Encode(to_underlying(Fields::kAccuracyRanges), accuracyRanges);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kMeasurementType)) {
								err = DataModel::Decode(reader, measurementType);
							} else if (__context_tag == to_underlying(Fields::kMeasured)) {
								err = DataModel::Decode(reader, measured);
							} else if (__context_tag ==
								   to_underlying(Fields::kMinMeasuredValue)) {
								err = DataModel::Decode(reader, minMeasuredValue);
							} else if (__context_tag ==
								   to_underlying(Fields::kMaxMeasuredValue)) {
								err = DataModel::Decode(reader, maxMeasuredValue);
							} else if (__context_tag ==
								   to_underlying(Fields::kAccuracyRanges)) {
								err = DataModel::Decode(reader, accuracyRanges);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace MeasurementAccuracyStruct

				namespace AtomicAttributeStatusStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kAttributeID), attributeID);
						encoder.Encode(to_underlying(Fields::kStatusCode), statusCode);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kAttributeID)) {
								err = DataModel::Decode(reader, attributeID);
							} else if (__context_tag ==
								   to_underlying(Fields::kStatusCode)) {
								err = DataModel::Decode(reader, statusCode);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace AtomicAttributeStatusStruct

				namespace ICECandidateStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kCandidate), candidate);
						encoder.Encode(to_underlying(Fields::kSDPMid), SDPMid);
						encoder.Encode(to_underlying(Fields::kSDPMLineIndex), SDPMLineIndex);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kCandidate)) {
								err = DataModel::Decode(reader, candidate);
							} else if (__context_tag == to_underlying(Fields::kSDPMid)) {
								err = DataModel::Decode(reader, SDPMid);
							} else if (__context_tag ==
								   to_underlying(Fields::kSDPMLineIndex)) {
								err = DataModel::Decode(reader, SDPMLineIndex);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace ICECandidateStruct

				namespace ICEServerStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kURLs), URLs);
						encoder.Encode(to_underlying(Fields::kUsername), username);
						encoder.Encode(to_underlying(Fields::kCredential), credential);
						encoder.Encode(to_underlying(Fields::kCaid), caid);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kURLs)) {
								err = DataModel::Decode(reader, URLs);
							} else if (__context_tag == to_underlying(Fields::kUsername)) {
								err = DataModel::Decode(reader, username);
							} else if (__context_tag ==
								   to_underlying(Fields::kCredential)) {
								err = DataModel::Decode(reader, credential);
							} else if (__context_tag == to_underlying(Fields::kCaid)) {
								err = DataModel::Decode(reader, caid);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace ICEServerStruct

				namespace LocationDescriptorStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kLocationName), locationName);
						encoder.Encode(to_underlying(Fields::kFloorNumber), floorNumber);
						encoder.Encode(to_underlying(Fields::kAreaType), areaType);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kLocationName)) {
								err = DataModel::Decode(reader, locationName);
							} else if (__context_tag ==
								   to_underlying(Fields::kFloorNumber)) {
								err = DataModel::Decode(reader, floorNumber);
							} else if (__context_tag == to_underlying(Fields::kAreaType)) {
								err = DataModel::Decode(reader, areaType);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace LocationDescriptorStruct

				namespace PowerThresholdStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kPowerThreshold), powerThreshold);
						encoder.Encode(to_underlying(Fields::kApparentPowerThreshold),
							       apparentPowerThreshold);
						encoder.Encode(to_underlying(Fields::kPowerThresholdSource),
							       powerThresholdSource);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kPowerThreshold)) {
								err = DataModel::Decode(reader, powerThreshold);
							} else if (__context_tag ==
								   to_underlying(Fields::kApparentPowerThreshold)) {
								err = DataModel::Decode(reader, apparentPowerThreshold);
							} else if (__context_tag ==
								   to_underlying(Fields::kPowerThresholdSource)) {
								err = DataModel::Decode(reader, powerThresholdSource);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace PowerThresholdStruct

				namespace SemanticTagStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kMfgCode), mfgCode);
						encoder.Encode(to_underlying(Fields::kNamespaceID), namespaceID);
						encoder.Encode(to_underlying(Fields::kTag), tag);
						encoder.Encode(to_underlying(Fields::kLabel), label);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kMfgCode)) {
								err = DataModel::Decode(reader, mfgCode);
							} else if (__context_tag ==
								   to_underlying(Fields::kNamespaceID)) {
								err = DataModel::Decode(reader, namespaceID);
							} else if (__context_tag == to_underlying(Fields::kTag)) {
								err = DataModel::Decode(reader, tag);
							} else if (__context_tag == to_underlying(Fields::kLabel)) {
								err = DataModel::Decode(reader, label);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace SemanticTagStruct

				namespace TestGlobalStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kName), name);
						encoder.Encode(to_underlying(Fields::kMyBitmap), myBitmap);
						encoder.Encode(to_underlying(Fields::kMyEnum), myEnum);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kName)) {
								err = DataModel::Decode(reader, name);
							} else if (__context_tag == to_underlying(Fields::kMyBitmap)) {
								err = DataModel::Decode(reader, myBitmap);
							} else if (__context_tag == to_underlying(Fields::kMyEnum)) {
								err = DataModel::Decode(reader, myEnum);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace TestGlobalStruct

				namespace ViewportStruct
				{
					CHIP_ERROR Type::Encode(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };
						encoder.Encode(to_underlying(Fields::kX1), x1);
						encoder.Encode(to_underlying(Fields::kY1), y1);
						encoder.Encode(to_underlying(Fields::kX2), x2);
						encoder.Encode(to_underlying(Fields::kY2), y2);
						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kX1)) {
								err = DataModel::Decode(reader, x1);
							} else if (__context_tag == to_underlying(Fields::kY1)) {
								err = DataModel::Decode(reader, y1);
							} else if (__context_tag == to_underlying(Fields::kX2)) {
								err = DataModel::Decode(reader, x2);
							} else if (__context_tag == to_underlying(Fields::kY2)) {
								err = DataModel::Decode(reader, y2);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace ViewportStruct

				namespace WebRTCSessionStruct
				{
					CHIP_ERROR Type::EncodeForWrite(TLV::TLVWriter &aWriter, TLV::Tag aTag) const
					{
						return DoEncode(aWriter, aTag, NullOptional);
					}

					CHIP_ERROR Type::EncodeForRead(TLV::TLVWriter &aWriter, TLV::Tag aTag,
								       FabricIndex aAccessingFabricIndex) const
					{
						return DoEncode(aWriter, aTag, MakeOptional(aAccessingFabricIndex));
					}

					CHIP_ERROR
					Type::DoEncode(TLV::TLVWriter &aWriter, TLV::Tag aTag,
						       const Optional<FabricIndex> &aAccessingFabricIndex) const
					{
						DataModel::WrappedStructEncoder encoder{ aWriter, aTag };

						encoder.Encode(to_underlying(Fields::kId), id);
						encoder.Encode(to_underlying(Fields::kPeerNodeID), peerNodeID);
						encoder.Encode(to_underlying(Fields::kPeerEndpointID), peerEndpointID);
						encoder.Encode(to_underlying(Fields::kStreamUsage), streamUsage);
						encoder.Encode(to_underlying(Fields::kVideoStreamID), videoStreamID);
						encoder.Encode(to_underlying(Fields::kAudioStreamID), audioStreamID);
						encoder.Encode(to_underlying(Fields::kMetadataEnabled),
							       metadataEnabled);
						if (aAccessingFabricIndex.HasValue()) {
							encoder.Encode(to_underlying(Fields::kFabricIndex),
								       fabricIndex);
						}

						return encoder.Finalize();
					}

					CHIP_ERROR DecodableType::Decode(TLV::TLVReader &reader)
					{
						detail::StructDecodeIterator __iterator(reader);
						while (true) {
							uint8_t __context_tag = 0;
							CHIP_ERROR err = __iterator.Next(__context_tag);
							VerifyOrReturnError(err != CHIP_ERROR_END_OF_TLV,
									    CHIP_NO_ERROR);
							ReturnErrorOnFailure(err);

							if (__context_tag == to_underlying(Fields::kId)) {
								err = DataModel::Decode(reader, id);
							} else if (__context_tag ==
								   to_underlying(Fields::kPeerNodeID)) {
								err = DataModel::Decode(reader, peerNodeID);
							} else if (__context_tag ==
								   to_underlying(Fields::kPeerEndpointID)) {
								err = DataModel::Decode(reader, peerEndpointID);
							} else if (__context_tag ==
								   to_underlying(Fields::kStreamUsage)) {
								err = DataModel::Decode(reader, streamUsage);
							} else if (__context_tag ==
								   to_underlying(Fields::kVideoStreamID)) {
								err = DataModel::Decode(reader, videoStreamID);
							} else if (__context_tag ==
								   to_underlying(Fields::kAudioStreamID)) {
								err = DataModel::Decode(reader, audioStreamID);
							} else if (__context_tag ==
								   to_underlying(Fields::kMetadataEnabled)) {
								err = DataModel::Decode(reader, metadataEnabled);
							} else if (__context_tag ==
								   to_underlying(Fields::kFabricIndex)) {
								err = DataModel::Decode(reader, fabricIndex);
							}

							ReturnErrorOnFailure(err);
						}
					}

				} // namespace WebRTCSessionStruct

			} // namespace Structs
		} // namespace Globals
	} // namespace Clusters
} // namespace app
} // namespace chip
